# coding: utf-8
"""Compatibility library."""

from typing import TYPE_CHECKING, Any, List

# scikit-learn is intentionally imported first here,
# see https://github.com/microsoft/LightGBM/issues/6509
"""sklearn"""
try:
    from sklearn import __version__ as _sklearn_version
    from sklearn.base import BaseEstimator, ClassifierMixin, RegressorMixin
    from sklearn.preprocessing import LabelEncoder
    from sklearn.utils.class_weight import compute_sample_weight
    from sklearn.utils.multiclass import check_classification_targets
    from sklearn.utils.validation import assert_all_finite, check_array, check_X_y

    try:
        from sklearn.exceptions import NotFittedError
        from sklearn.model_selection import BaseCrossValidator, GroupKFold, StratifiedKFold
    except ImportError:
        from sklearn.cross_validation import BaseCrossValidator, GroupKFold, StratifiedKFold
        from sklearn.utils.validation import NotFittedError
    try:
        from sklearn.utils.validation import _check_sample_weight
    except ImportError:
        from sklearn.utils.validation import check_consistent_length

        # dummy function to support older version of scikit-learn
        def _check_sample_weight(sample_weight: Any, X: Any, dtype: Any = None) -> Any:
            check_consistent_length(sample_weight, X)
            return sample_weight

    try:
        from sklearn.utils.validation import validate_data
    except ImportError:
        # validate_data() was added in scikit-learn 1.6, this function roughly imitates it for older versions.
        # It can be removed when lightgbm's minimum scikit-learn version is at least 1.6.
        def validate_data(
            _estimator: Any,
            X: Any,
            y: Any = "no_validation",
            accept_sparse: bool = True,
            # 'force_all_finite' was renamed to 'ensure_all_finite' in scikit-learn 1.6
            ensure_all_finite: bool = False,
            ensure_min_samples: int = 1,
            # trap other keyword arguments that only work on scikit-learn >=1.6, like 'reset'
            **ignored_kwargs: Any,
        ) -> Any:
            # it's safe to import _num_features unconditionally because:
            #
            #  * it was first added in scikit-learn 0.24.2
            #  * lightgbm cannot be used with scikit-learn versions older than that
            #  * this validate_data() re-implementation will not be called in scikit-learn>=1.6
            #
            from sklearn.utils.validation import _num_features  # noqa: PLC0415

            # _num_features() raises a TypeError on 1-dimensional input. That's a problem
            # because scikit-learn's 'check_fit1d' estimator check sets that expectation that
            # estimators must raise a ValueError when a 1-dimensional input is passed to fit().
            #
            # So here, lightgbm avoids calling _num_features() on 1-dimensional inputs.
            if hasattr(X, "shape") and len(X.shape) == 1:
                n_features_in_ = 1
            else:
                n_features_in_ = _num_features(X)

            no_val_y = isinstance(y, str) and y == "no_validation"

            # NOTE: check_X_y() calls check_array() internally, so only need to call one or the other of them here
            if no_val_y:
                X = check_array(
                    X,
                    accept_sparse=accept_sparse,
                    force_all_finite=ensure_all_finite,
                    ensure_min_samples=ensure_min_samples,
                )
            else:
                X, y = check_X_y(
                    X,
                    y,
                    accept_sparse=accept_sparse,
                    force_all_finite=ensure_all_finite,
                    ensure_min_samples=ensure_min_samples,
                )

                # this only needs to be updated at fit() time
                _estimator.n_features_in_ = n_features_in_

            # raise the same error that scikit-learn's `validate_data()` does on scikit-learn>=1.6
            if _estimator.__sklearn_is_fitted__() and _estimator._n_features != n_features_in_:
                raise ValueError(
                    f"X has {n_features_in_} features, but {_estimator.__class__.__name__} "
                    f"is expecting {_estimator._n_features} features as input."
                )

            if no_val_y:
                return X
            else:
                return X, y

    SKLEARN_INSTALLED = True
    _LGBMBaseCrossValidator = BaseCrossValidator
    _LGBMModelBase = BaseEstimator
    _LGBMRegressorBase = RegressorMixin
    _LGBMClassifierBase = ClassifierMixin
    _LGBMLabelEncoder = LabelEncoder
    LGBMNotFittedError = NotFittedError
    _LGBMStratifiedKFold = StratifiedKFold
    _LGBMGroupKFold = GroupKFold
    _LGBMCheckSampleWeight = _check_sample_weight
    _LGBMAssertAllFinite = assert_all_finite
    _LGBMCheckClassificationTargets = check_classification_targets
    _LGBMComputeSampleWeight = compute_sample_weight
    _LGBMValidateData = validate_data
except ImportError:
    SKLEARN_INSTALLED = False

    class _LGBMModelBase:  # type: ignore
        """Dummy class for sklearn.base.BaseEstimator."""

        pass

    class _LGBMClassifierBase:  # type: ignore
        """Dummy class for sklearn.base.ClassifierMixin."""

        pass

    class _LGBMRegressorBase:  # type: ignore
        """Dummy class for sklearn.base.RegressorMixin."""

        pass

    _LGBMBaseCrossValidator = None
    _LGBMLabelEncoder = None
    LGBMNotFittedError = ValueError
    _LGBMStratifiedKFold = None
    _LGBMGroupKFold = None
    _LGBMCheckSampleWeight = None
    _LGBMAssertAllFinite = None
    _LGBMCheckClassificationTargets = None
    _LGBMComputeSampleWeight = None
    _LGBMValidateData = None
    _sklearn_version = None

# additional scikit-learn imports only for type hints
if TYPE_CHECKING:
    # sklearn.utils.Tags can be imported unconditionally once
    # lightgbm's minimum scikit-learn version is 1.6 or higher
    try:
        from sklearn.utils import Tags as _sklearn_Tags
    except ImportError:
        _sklearn_Tags = None


"""pandas"""
try:
    from pandas import DataFrame as pd_DataFrame
    from pandas import Series as pd_Series
    from pandas import concat

    try:
        from pandas import CategoricalDtype as pd_CategoricalDtype
    except ImportError:
        from pandas.api.types import CategoricalDtype as pd_CategoricalDtype
    PANDAS_INSTALLED = True
except ImportError:
    PANDAS_INSTALLED = False

    class pd_Series:  # type: ignore
        """Dummy class for pandas.Series."""

        def __init__(self, *args: Any, **kwargs: Any):
            pass

    class pd_DataFrame:  # type: ignore
        """Dummy class for pandas.DataFrame."""

        def __init__(self, *args: Any, **kwargs: Any):
            pass

    class pd_CategoricalDtype:  # type: ignore
        """Dummy class for pandas.CategoricalDtype."""

        def __init__(self, *args: Any, **kwargs: Any):
            pass

    concat = None

"""matplotlib"""
try:
    import matplotlib  # noqa: F401

    MATPLOTLIB_INSTALLED = True
except ImportError:
    MATPLOTLIB_INSTALLED = False

"""graphviz"""
try:
    import graphviz  # noqa: F401

    GRAPHVIZ_INSTALLED = True
except ImportError:
    GRAPHVIZ_INSTALLED = False

"""dask"""
try:
    from dask import delayed
    from dask.array import Array as dask_Array
    from dask.array import from_delayed as dask_array_from_delayed
    from dask.bag import from_delayed as dask_bag_from_delayed
    from dask.dataframe import DataFrame as dask_DataFrame
    from dask.dataframe import Series as dask_Series
    from dask.distributed import Client, Future, default_client, wait

    DASK_INSTALLED = True
# catching 'ValueError' here because of this:
# https://github.com/microsoft/LightGBM/issues/6365#issuecomment-2002330003
#
# That's potentially risky as dask does some significant import-time processing,
# like loading configuration from environment variables and files, and catching
# ValueError here might hide issues with that config-loading.
#
# But in exchange, it's less likely that 'import lightgbm' will fail for
# dask-related reasons, which is beneficial for any workloads that are using
# lightgbm but not its Dask functionality.
except (ImportError, ValueError):
    DASK_INSTALLED = False

    dask_array_from_delayed = None  # type: ignore[assignment]
    dask_bag_from_delayed = None  # type: ignore[assignment]
    delayed = None
    default_client = None  # type: ignore[assignment]
    wait = None  # type: ignore[assignment]

    class Client:  # type: ignore
        """Dummy class for dask.distributed.Client."""

        def __init__(self, *args: Any, **kwargs: Any):
            pass

    class Future:  # type: ignore
        """Dummy class for dask.distributed.Future."""

        def __init__(self, *args: Any, **kwargs: Any):
            pass

    class dask_Array:  # type: ignore
        """Dummy class for dask.array.Array."""

        def __init__(self, *args: Any, **kwargs: Any):
            pass

    class dask_DataFrame:  # type: ignore
        """Dummy class for dask.dataframe.DataFrame."""

        def __init__(self, *args: Any, **kwargs: Any):
            pass

    class dask_Series:  # type: ignore
        """Dummy class for dask.dataframe.Series."""

        def __init__(self, *args: Any, **kwargs: Any):
            pass


"""pyarrow"""
try:
    import pyarrow.compute as pa_compute
    from pyarrow import Array as pa_Array
    from pyarrow import ChunkedArray as pa_ChunkedArray
    from pyarrow import Table as pa_Table
    from pyarrow import array as pa_array
    from pyarrow import chunked_array as pa_chunked_array
    from pyarrow.types import is_boolean as arrow_is_boolean
    from pyarrow.types import is_floating as arrow_is_floating
    from pyarrow.types import is_integer as arrow_is_integer

    PYARROW_INSTALLED = True
except ImportError:
    PYARROW_INSTALLED = False

    class pa_Array:  # type: ignore
        """Dummy class for pa.Array."""

        def __init__(self, *args: Any, **kwargs: Any):
            pass

    class pa_ChunkedArray:  # type: ignore
        """Dummy class for pa.ChunkedArray."""

        def __init__(self, *args: Any, **kwargs: Any):
            pass

    class pa_Table:  # type: ignore
        """Dummy class for pa.Table."""

        def __init__(self, *args: Any, **kwargs: Any):
            pass

    class pa_compute:  # type: ignore
        """Dummy class for pyarrow.compute module."""

        all = None
        equal = None

    pa_array = None
    pa_chunked_array = None
    arrow_is_boolean = None
    arrow_is_integer = None
    arrow_is_floating = None


"""cffi"""
try:
    from pyarrow.cffi import ffi as arrow_cffi

    CFFI_INSTALLED = True
except ImportError:
    CFFI_INSTALLED = False

    class arrow_cffi:  # type: ignore
        """Dummy class for pyarrow.cffi.ffi."""

        CData = None

        def __init__(self, *args: Any, **kwargs: Any):
            pass


"""cpu_count()"""
try:
    from joblib import cpu_count

    def _LGBMCpuCount(only_physical_cores: bool = True) -> int:
        return cpu_count(only_physical_cores=only_physical_cores)
except ImportError:
    try:
        from psutil import cpu_count

        def _LGBMCpuCount(only_physical_cores: bool = True) -> int:
            return cpu_count(logical=not only_physical_cores) or 1
    except ImportError:
        from multiprocessing import cpu_count

        def _LGBMCpuCount(only_physical_cores: bool = True) -> int:
            return cpu_count()


__all__: List[str] = []
